CN205456498U - But shoes of automatically regulated shoelace elasticity - Google Patents

Abstract

The utility model relates to a but shoes of automatically regulated shoelace elasticity, including a sole, the vamp, tongue and a plurality of shoelaces, vamp fixed connection is in the sole upper surface, the vamp middle part is equipped with the U -shaped opening, tongue fixed connection is in the opening front end, still include the hidden electronic shoelace device of tying up, the hidden electronic shoelace device of tying up includes a plurality of guide rails, the protective housing, power and controller, a plurality of the guide rail all sets up in the vamp of opening one side, and it extends to the sole direction to follow opening one side edge, the protective housing sets up in the sole with the guide rail homonymy, be equipped with the axostylus axostyle in the protective housing and be used for drive shaft pivoted motor, the motor is connected with the power electricity that sets up in the sole, the controller is connected with the motor and is used for the control motor to connect the electric flux to reach the rotation direction absolutely, a plurality of shoelace one end are twined respectively and are fixed on the axostylus axostyle, the other end passes a plurality of guide rails respectively, fixed connection is in the vamp of opening opposite side, the positive and negative rotation of controller control motor, motor drive the positive despinning of axostylus axostyle, adjust the shoelace elasticity.

Description

A kind of The footwear of shoelace tightness can be automatically adjusted

Technical field

This utility model relates to footwear technical field, particularly relates to a kind of footwear being automatically adjusted shoelace tightness.

Background technology

Remain the protection essential the articles for daily use of foot at shoes now, and along with quality of the life is required to improve constantly by people, the shoes of various pattern functions are such as emerged rapidly in large numbersBamboo shoots after a spring rain and continued to bring out.

Wear off in structure and comfortableness for footwear, the most still maintain Shoelace structure.It is required for unclamping shoestring tie-down when wearing off with the shoes of Shoelace structure, relatively complicated time-consuming；Seeming and readily tie up shoestring, some people almost cannot complete under many circumstances.At present, common form is the shoestring of the decussation between the medial part and lateral part of vamp, and shoestring around instep tension and is fastened knot by wearer；Although the simplest and practical, but when band is tied when naturally unclamping around the foot of wearer, this shoestring is needing throughout the day to be fastened and is again fastening, and this will bring puzzlement for common wearer.Especially child may be unaware that how to tie a knot on shoestring, so that father and mother or the help of caregiver；Additionally, the old people perplexed by arthritis, in order to be fixed to shoestring tension on foot by footwear and tie a knot, pain or exceedingly challenge may be felt；Further, some maimed personages or lose the crowd of testing finger flexibility, they are difficult to fasten fine shoestring too.

Therefore, urgent need research is a kind of can tighten and unclamp the shoestring footwear with regulation shoelace tightness automatically, improves the comfortableness of shoes when dressing, and beneficially marketing.

Summary of the invention

The purpose of this utility model is for the deficiencies in the prior art, it is provided that a kind of reasonable in design, wearing comfort is good, it is possible to automatically tightens and unclamps shoestring, wears off the footwear that can be automatically adjusted shoelace tightness easily.

For achieving the above object, this utility model is by the following technical solutions:

nullA kind of footwear being automatically adjusted shoelace tightness，It includes sole、Vamp、Flap and some shoestrings，Vamp is fixedly connected on sole upper surface，U-shaped opening it is provided with in the middle part of vamp，Flap is fixedly connected on open front，It also includes that concealed electric ties up lace device，Described concealed electric is tied up lace device and is included some guide rails、Containment vessel、Power supply and controller，Described some guide rails are arranged in the vamp of opening side，And extend to sole direction from opening one lateral edges，Described containment vessel be arranged on in the sole of guide rail homonymy，Axostylus axostyle it is provided with and for the motor driving axostylus axostyle to rotate in containment vessel，Motor electrically connects with the power supply being arranged in sole，Described controller and motor are connected to control motor and connect electricity break-make and rotation direction，Described some shoestring one end are fastened respectively on axostylus axostyle，Some the shoestring other end is each passed through some guide rails，It is fixedly connected in the vamp of opening opposite side；Controller controls motor positive and inverse and moves, and driven by motor axostylus axostyle positive and negative rotation regulates shoelace tightness.

Described concealed electric is tied up lace device and is also included pulling for sensing axostylus axostyle rotation the pulling force sensor of shoestring pulling force, and pulling force sensor is connected with power supply and controller respectively.

Described concealed electric is tied up lace device and is also included being arranged in the vamp of opening opposite side for sensing the pressure transducer of vamp internal pressure, and pressure transducer is connected with power supply and controller respectively.

Described controller is the remote controller from charged pool, and described motor is remote-control motor, remote controller and remote-control motor wireless connections.This design makes user by the comfortableness of the remote controller regulation shoes in hands, thus can reach the purpose without all regulating shoelace tightness in bending over or advancing.

Described controller is arranged on vamp, and controller is connected with power supply.This design can carry out comfort tuning according to feel at any time.

Described controller is rotary switch or press button.

Described containment vessel includes drain pan and face-piece, and drain pan fastens with face-piece and is tightly connected, and on face-piece, the most corresponding some guide rails are provided with several that pass for shoestring and walk mouth.Described drain pan is connected by several screws with face-piece.

Described motor is fixed on drain pan one end, and the output shaft of motor is connected with axostylus axostyle one end, and the axostylus axostyle other end is arranged on the drain pan other end by bearing is rotating.

Described some guide rails are along the vamp parallel distribution of fore-and-aft direction equidistant from distance or are randomly distributed.

The dismountable rear heel being arranged on footwear of described power supply.

Described power supply is chargeable accumulator.

Described sole correspondence accumulator is provided with charging socket.

Described opening side is the outside of vamp.The design of some guide rails of this utility model, can avoid vamp inner layer material and cladding material directly to clamp shoestring, causes the shoestring resistance of motion to become big, thus affects axostylus axostyle and rotate and be wound around shoestring, simultaneously in shoelace tightening and the effect that also acts as guiding during loosening；The design of containment vessel, not only acts as support fixed axostyle and the effect of motor, and can preferably protect axostylus axostyle and motor；The design of pulling force sensor so that available pulling force sensor sensing axostylus axostyle rotates and pulls shoestring pulling force, it is to avoid shoestring is crossed pine or is tightly against strapped on foot, thus improves the comfortableness that shoes are dressed；Controller of the present utility model can be hand-held remote controller, it is also possible to the switch being fixedly disposed on vamp, and design is versatile and flexible；Power Management Design of the present utility model becomes dismountable so that this power supply can be disposable battery, it is also possible to be chargeable storage, and power source is extensive, unrestricted.

This utility model uses above technical scheme, when dressing shoes, control motor by controller to rotate forward, the axostylus axostyle being connected with motor output shaft is driven to rotate forward, shoestring one ends wound tightens up on axostylus axostyle, pulls the shoestring other end simultaneously so that the vamp of opening opposite side is close to opening side draw in, then controller controls motor stalls, thus strains shoestring Guan Bi opening and tightened on foot by shoes；Otherwise, at the period of the day from 11 p.m. to 1 a.m of taking off one's shoes, control motor reversal by controller, drive axostylus axostyle direction rotate loosen, lengthen shoestring one end so that the shoestring other end loses pulling force, opens opening, and fine motion foot can take off shoes.

This utility model is reasonable in design, when wearing off, is operated by controller, can the most automatically tighten and unclamp shoestring, solves tradition and wears off shoes and need to bend over manually to tighten and unclamp the problem of shoestring, and it is convenient to wear off, time saving and energy saving；And the pulling force pulling shoestring can be rotated by pulling force sensor sensing axostylus axostyle according to the different size of foot of different crowd, automatically control the motor positive and inverse degree of tightness with regulation shoestring, improve the comfortableness that shoes are dressed.

Accompanying drawing explanation

In conjunction with accompanying drawing, this utility model is further elaborated:

Fig. 1 is the footwear structure schematic diagram that this utility model can be automatically adjusted shoelace tightness；

Fig. 2 is this utility model guide rail deployed configuration schematic diagram；

Fig. 3 is that this utility model concealed electric ties up lace device decomposition texture schematic diagram.

Detailed description of the invention

nullAs shown in one of Fig. 1-3，This utility model includes sole 11、Vamp 12、Flap 13 and some shoestrings 14，Vamp 12 is fixedly connected on sole 11 upper surface，U-shaped opening 15 it is provided with in the middle part of vamp 12，Flap 13 is fixedly connected on opening 15 front end，It also includes that concealed electric ties up lace device 2，Described concealed electric is tied up lace device 2 and is included some guide rails 21、Containment vessel 22、Power supply 23 and controller 24，Described some guide rails 21 are arranged in the vamp 13 of opening 15 side，And extend to sole 11 direction from opening 15 1 lateral edges，Described containment vessel 22 be arranged on in the sole 11 of guide rail 21 homonymy，Axostylus axostyle 25 it is provided with and for the motor 26 driving axostylus axostyle 25 to rotate in containment vessel 22，Motor 26 electrically connects with the power supply 23 being arranged in sole 11，Described controller 24 and motor 26 are connected to control motor 26 and connect electricity break-make and rotation direction，Described some shoestring 14 one end are fastened respectively on axostylus axostyle 25，Some shoestring 14 other end is each passed through some guide rails 21，It is fixedly connected in the vamp 12 of opening 15 opposite side；Controller 24 controls the positive and negative rotation of motor 26, and motor 26 drives axostylus axostyle 25 positive and negative rotation, regulates shoestring 14 degree of tightness.

Described concealed electric is tied up lace device 2 and is also included pulling for sensing axostylus axostyle 25 rotation the pulling force sensor (not shown) of shoestring 14 pulling force, and pulling force sensor is connected with power supply 23 and controller 24 respectively.

Described concealed electric is tied up lace device 2 and is also included being arranged in the vamp 12 of opening 15 opposite side for sensing the pressure transducer (not shown) of vamp 12 internal pressure, and pressure transducer is connected with power supply 23 and controller 24 respectively.

Described controller 24 is the remote controller from charged pool, and described motor 26 is remote-control motor, remote controller and remote-control motor wireless connections.This design makes user by the comfortableness of the remote controller regulation shoes in hands, thus can reach the purpose without all regulating shoelace tightness in bending over or advancing.

Described controller 24 is arranged on vamp 12, and controller 24 is connected with power supply 23.This design can carry out comfort tuning according to feel at any time.

Described controller 24 is rotary switch or press button.

Described containment vessel 22 includes drain pan 221 and face-piece 222, and drain pan 221 fastens with face-piece 222 and is tightly connected, and on face-piece 222, the most corresponding some guide rails 21 are provided with several that pass for shoestring 14 and walk mouth 223.

Described drain pan is connected by several screws with face-piece.

Described motor 26 is fixed on drain pan 221 one end, and the output shaft of motor 26 is connected with axostylus axostyle 25 one end, and axostylus axostyle 25 other end is arranged on drain pan 221 other end by bearing (not marking in figure) is rotating.

Described some guide rails 21 are along the vamp 12 parallel distribution of fore-and-aft direction equidistant from distance or are randomly distributed.

The dismountable rear heel being arranged on footwear 11 of described power supply 23.

Described power supply 23 is chargeable accumulator.

The corresponding accumulator of described sole 11 is provided with charging socket 27.

Described opening 15 side is the outside of vamp 12.

The design of some guide rails 21 of this utility model, vamp 12 inner layer material and cladding material can be avoided directly to clamp shoestring 14, cause the shoestring resistance of motion to become big, thus affect axostylus axostyle 25 and rotate winding shoestring 14, during shoestring 14 tightens up and loosens, also act as the effect of guiding simultaneously；The design of containment vessel 22, not only acts as support fixed axostyle 25 and the effect of motor 26, and can preferably protect axostylus axostyle 25 and motor 26；The design of pulling force sensor so that available pulling force sensor sensing axostylus axostyle 25 rotates and pulls shoestring 14 pulling force, it is to avoid shoestring 14 is crossed pine or is tightly against strapped on foot, thus improves the comfortableness that shoes are dressed；Controller 24 of the present utility model can be hand-held remote controller, it is also possible to be fixedly disposed at the switch on vamp 12, and design is versatile and flexible；Power supply 23 of the present utility model is designed to dismountable so that this power supply can be disposable battery, it is also possible to be chargeable storage, and power source is extensive, unrestricted.

This utility model uses above technical scheme, when dressing shoes, control motor 26 by controller 24 to rotate forward, the axostylus axostyle 25 being connected with motor output shaft is driven to rotate forward, shoestring 14 one ends wound tightens up on axostylus axostyle 25, pulls shoestring 14 other end simultaneously so that the vamp 12 of opening opposite side is close to opening side draw in, then controller controls motor stalls, thus strains shoestring Guan Bi opening and tightened on foot by shoes；Otherwise, at the period of the day from 11 p.m. to 1 a.m of taking off one's shoes, control motor 26 by controller 24 and invert, drive axostylus axostyle 25 direction rotate loosen, lengthen shoestring 14 one end so that shoestring 14 other end loses pulling force, opens opening, and fine motion foot can take off shoes.

This utility model is reasonable in design, when wearing off, is operated by controller, can the most automatically tighten and unclamp shoestring, solves tradition and wears off shoes and need to bend over manually to tighten and unclamp the problem of shoestring, and it is convenient to wear off, time saving and energy saving；And the pulling force pulling shoestring can be rotated by pulling force sensor sensing axostylus axostyle according to the different size of foot of different crowd, automatically control the motor positive and inverse degree of tightness with regulation shoestring, improve the comfortableness that shoes are dressed.

Above description should not have any restriction to protection domain of the present utility model.

Claims (10)

1. null1. the footwear that can be automatically adjusted shoelace tightness，Including sole、Vamp、Flap and some shoestrings，Vamp is fixedly connected on sole upper surface，U-shaped opening it is provided with in the middle part of vamp，Flap is fixedly connected on open front，It is characterized in that: it also includes that concealed electric ties up lace device，Described concealed electric is tied up lace device and is included some guide rails、Containment vessel、Power supply and controller，Described some guide rails are arranged in the vamp of opening side，And extend to sole direction from opening one lateral edges，Described containment vessel be arranged on in the sole of guide rail homonymy，Axostylus axostyle it is provided with and for the motor driving axostylus axostyle to rotate in containment vessel，Motor electrically connects with the power supply being arranged in sole，Described controller is connected with motor，Electricity break-make and rotation direction is connect for controlling motor，Described some shoestring one end are fastened respectively on axostylus axostyle，Some the shoestring other end is each passed through some guide rails，It is fixedly connected in the vamp of opening opposite side；Controller controls motor positive and inverse and moves, and driven by motor axostylus axostyle positive and negative rotation regulates shoelace tightness.
2. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterized in that: described concealed electric is tied up lace device and also included pulling for sensing axostylus axostyle rotation the pulling force sensor of shoestring pulling force, and pulling force sensor is connected with power supply and controller respectively.
3. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterized in that: described concealed electric is tied up lace device and also included being arranged in the vamp of opening opposite side for sensing the pressure transducer of vamp internal pressure, and pressure transducer is connected with power supply and controller respectively.
4. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterised in that: described controller is the remote controller from charged pool, and described motor is remote-control motor, remote controller and remote-control motor wireless connections.
5. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterised in that: described controller is arranged on vamp, and controller is connected with power supply.
6. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 5, it is characterised in that: described controller is rotary switch or press button.
7. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1; it is characterized in that: described containment vessel includes drain pan and face-piece; drain pan and face-piece fasten and are tightly connected, and on face-piece, the most corresponding some guide rails are provided with several that pass for shoestring and walk mouth.
8. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterised in that: described some guide rails are along the vamp parallel distribution of fore-and-aft direction equidistant from distance or are randomly distributed.
9. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterised in that: the dismountable rear heel being arranged on footwear of described power supply.
10. A kind of footwear being automatically adjusted shoelace tightness the most according to claim 1, it is characterised in that: described power supply is chargeable accumulator, and described sole correspondence accumulator is provided with charging socket.